Currently, I'm a student of Varna University of Management.
Regarding my experience in visiting different kind of business schools, process related to one of my researches, as well as interviewing different students about the policies of their schools, the efficiency of their lectures held, the appropriate assessment of their assignments, and the overall effectiveness of the subjects set in their schedules, I can proudly ascertain that Varna University of Management is the number one business school in Bulgaria.

Chemical engineering is concerned with inventing, designing, and managing products and processes that transform raw materials into valuable products such as bio-fuels, plastics, wine, pharmaceuticals, and artificial blood. This is done using the latest knowledge of biology, chemistry and physics to ensure viable commercial production whilst minimising loss of materials and energy consumption. This value-adding must be safe, economical and environmentally sound. Materials engineering is concerned with the selection, processing and development of materials to design and make products. Materials - metals, alloys, ceramics, polymers and composites - give manufactured products their functional and aesthetic qualities. These two areas of engineering combine well because the properties of materials are often strongly affected by their processing. In addition, chemical processes are conducted in vessels, pumps, reactors and other equipment where the selection of the right materials of construction and material behaviour over time is very important. Chemical & Materials Engineers are ideally suited to work at this interface which is important for industry as well as cutting edge areas like biomaterials, nanotechnology and novel composites.

Employment opportunities:

Chemical engineering is one of the most mobile and diverse careers you can choose. Your skills will allow you to work in a wide range of industries, government departments and private consultancies. For example you can work in: - Environmental protection, management and safety - Natural resource utilisation and the energy sector - Chemical, petroleum and petrochemical industries -

Biochemical, biomedical and pharmaceuticals industries

Computer-aided process and control engineering

Advanced materials design and manufacture

Minerals processing and related industries

Food processing

Product design and development

The combination with Materials Engineering opens up employment opportunities in materials processing and manufacturing industries, including the automobile, whitegoods, steel, aluminium and polymer industries that create wealth and add value to Australia's mineral resources. Materials engineers are employed in large multinational companies and small to medium enterprises, in research establishments, in public utilities and in consulting engineering firms. BE/ME graduates will have a head start in careers that require specialist skills and adaptability (e.g. in consulting, corporate/governmental advising or industrial research) or when applying for research higher degrees at the world's top research institutions.

English language requirement:

IELTS overall 6.5; reading 6; writing 6; speaking 6; listening 6.

Study Abroad and Incoming Exchange students are only required to meet the overall score (eg 6.5 IELTS or 87 TOEFL or 64 PTE( Pearson Test of English )).

Academic Requirement:

For Australian students:

OP/Entry rank:6/89

Entry to the 5 year program BE(Hons)/ME will be via student application after completion of at least #48 towards a BE(Hons) in a relevant discipline and is available only to students who are performing at Honours level (i.e. a cumulative weighted GPA of at least 5.0) at the time of application.

For International students:

Entry to the 5 year program BE(Hons)/ME will be via student application after completion of at least #48 towards a BE(Hons) in a relevant discipline and is available only to students who are performing at Honours level (i.e. a cumulative weighted GPA of at least 5.0) at the time of application.

Chemical engineering is concerned with inventing, designing, and managing products and processes that transform raw materials into valuable products such as bio-fuels, plastics, wine, pharmaceuticals, and artificial blood. This is done using the latest knowledge of biology, chemistry and physics to ensure viable commercial production whilst minimising loss of materials and energy consumption. This value-adding must be safe, economical and environmentally sound. Materials engineering is concerned with the selection, processing and development of materials to design and make products. Materials - metals, alloys, ceramics, polymers and composites - give manufactured products their functional and aesthetic qualities. These two areas of engineering combine well because the properties of materials are often strongly affected by their processing. In addition, chemical processes are conducted in vessels, pumps, reactors and other equipment where the selection of the right materials of construction and material behaviour over time is very important. Chemical & Materials Engineers are ideally suited to work at this interface which is important for industry as well as cutting edge areas like biomaterials, nanotechnology and novel composites.

Employment opportunities:

Chemical engineering is one of the most mobile and diverse careers you can choose. Your skills will allow you to work in a wide range of industries, government departments and private consultancies. For example you can work in: - Environmental protection, management and safety - Natural resource utilisation and the energy sector - Chemical, petroleum and petrochemical industries -

Biochemical, biomedical and pharmaceuticals industries

Computer-aided process and control engineering

Advanced materials design and manufacture

Minerals processing and related industries

Food processing

Product design and development

The combination with Materials Engineering opens up employment opportunities in materials processing and manufacturing industries, including the automobile, whitegoods, steel, aluminium and polymer industries that create wealth and add value to Australia's mineral resources. Materials engineers are employed in large multinational companies and small to medium enterprises, in research establishments, in public utilities and in consulting engineering firms. BE/ME graduates will have a head start in careers that require specialist skills and adaptability (e.g. in consulting, corporate/governmental advising or industrial research) or when applying for research higher degrees at the world's top research institutions.

Study Abroad and Incoming Exchange students are only required to meet the overall score (eg 6.5 IELTS or 87 TOEFL or 64 PTE( Pearson Test of English )).

Academic Requirement:

For Australian students:

OP/Entry rank:6/89

Entry to the 5 year program BE(Hons)/ME will be via student application after completion of at least #48 towards a BE(Hons) in a relevant discipline and is available only to students who are performing at Honours level (i.e. a cumulative weighted GPA of at least 5.0) at the time of application.

For International students:

Entry to the 5 year program BE(Hons)/ME will be via student application after completion of at least #48 towards a BE(Hons) in a relevant discipline and is available only to students who are performing at Honours level (i.e. a cumulative weighted GPA of at least 5.0) at the time of application.